1. Preparation & Commissioning of TOTEM for the Run-II of LHC S.Giani on behalf of the TOTEM Collaboration

2. IP5 RP147RP220 Roman Pots: measure elastic & diffractive protons close to outgoing beam Initial Experimental Setup @ IP5 (Run-1) Inelastic telescopes: charged particle & vertex reconstruction in inelastic events IP5 T1: 3.1 <  < 4.7 T2: 5.3 <  < 6.5 ~ 10 m ~ 14 m T1 CASTOR (CMS) HF (CMS) T2

3. RP (Si) T1 (CSC) T2 (GEM) RP (Si) Commissioning of TOTEM Detectors for the Run-2

4. TOTEM RP Consolidation & Upgrade Program Existing RP220 (vertical + horizontal RPs) Upgraded Roman Pot System RP147 relocated to 203-214m (vertical + horizontal RPs) Consolidation: Relocate pots at 214m and 203m to improve lever arm and tracking Upgrades: Timing detectors in vertical RPs; installation of new cylindrical horizontal RPs for timing detectors and of current horizontal RPs with RF shields for CT-PPS TOTEM: Upgrade TDR & TDR Addendum endorsed by LHCC [minutes Nov’14] CT-PPS: TDR technical baselines already endorsed by LHCC [minutes Nov’14]

5. overview (schematic) 1 horizontal RP TIMING Detector 1 horizontal RP TIMING Detector Near 2 vertical RP top/bottom 1 horizontal RP 2 vertical RP 1 horizontal RP TRACKING Detector Far 2 vertical RP top/bottom 1 horizontal RP 2 vertical RP 1 horizontal RP TRACKING Detector Existing TOTEM RP-220 m (near-far) New timing detectors TCL-6 CMS ip5 ~ 220 m outgoing beam New Si pixel tracking detectors in horizontal RPs + RP - RF shield Q6 ~ 5-10 m~ 5 m shielding New LHC component New RP stations TCL-4 New LHC component All RPs can be operated simultaneously ! Relocated stations from 147 m RPs Consolidation & Upgrade – Flexibility

6. RPs Performance - Example

7. Roman Pot Readiness for Run-2 Full RP infrastructure deployed in LHC’s sectors 45&56 – 26 RPs installed! Oct 2014 RPs are on schedule expected to run with the earliest LHC’s beam Mar 2015 Service lines connected Detector packages installed Nov 2014 Jan-Feb 2015 Commissioning done Sec. Vacuum & Cooling Powering Control loop RP readout with DAQ Interlock test - started RP movement test from CCC - started Full RPs configurations qualified by LHC impedance group [ LMC ] Apr 2015 May 2015: Alignment run scheduled this week

9. T1 Readiness for Run-2 Maintenance activity is over Tested on surface: Low voltage HV and gas Control Loop DAQ Sep 2014 Nov 2014 T1 is installed into the CMS end-caps March 2015

10. T2 Readiness for Run-2 Maintenance activity is over Commissioning on-going Sep. 2014 Jan. 2015 T2 is installed at CMS Mar. 2015 Oct. 2014 CMS closed, magnet test was performed T2 Re-insertion in HF LV, HV, gas Detector operation Up to the 11 th of Feb T2 was fully checked and functional On the 12 th due to mechanical stress one quarter was damaged. Due to the tight schedule, to avoid instabilities of the full arm it was decided to exclude the damaged quarter from the control loop Impact of having one T2 quarter not operational is less or equal of 1% in all the main physics channels T2 switched on at LHC and calibrated with CMS Apr. 2015

11. DAQ Consolidation Replacement of the VME back-end with Ethernet 1Gb links, using RD51 FrontEnd Concentrator (FEC) cards Full compatibility with CMS DAQ and LHC TTC (new hardware installed) Procurement completed Commissioning done in the test-bench with real beam reading out the RPs 20kHz trigger rate measured: ~20x w.r.t. previous DAQ system Ready for installation in IP5 First demonstrator tested in IP5

12. DAQ Ongoing Work Scaling of the full infrastructure of TOTEM stand-alone DAQ Storage space Add computing resources CPUs, FPGAs Studies of on-line hardware algorithms: Data-reduction Filtration based on on-line reconstruction Further improvements of the DAQ rate capabilities Integration with the CMS DAQ Ethernet based DAQ crate 4Gb/s aggregated throughput

13. Timing Detector Development for Vertical RPs Objective: 4 timing detectors per arm in vertical RPs First detectors installation foreseen by Oct 2015 Ultimately 50 ps resolution per arm (100 ps per detector) Development: Intense test beam activity to characterise different detector and front-end configurations (Jul 2014 – Feb 2015). Optimization of connection capacitance, front-end amplifier configuration –Improve the S/N ratio –Improve the rise time –Improve the time resolution

14. Test-beams Timeline and Milestones At PS pions 10GeV  (t)=300 ps CIVIDEC Amplifiers CIVIDEC SC Diamond At SPS – pions 180GeV  (t)=200-250 ps Reduced capacitance on the sensor’s PCB TOTEM custom amplifiers Jul 2014 Oct 2014 Nov 2014 At SPS pions 180GeV  (t)=~90 ps GSI diamond sensor and associated hybrid with embedded front-end amplifier. Sep 2015 First timing detectors are expected At SPS – pions 180GeV Test of first TOTEM hybrids and front-ends Benchmark with GSI Dec 2015 At DESY Requested test- beams for final design validation Apr-Jul 2015 Feb 2015 At DESY – electrons 4 - 5.6GeV  (t)=95 ps Test of TOTEM hybrids, optimizations towards final design

15. Test-beam at DESY “DATURA” tracker 18μm pitch pixel GSI hybrid HADES Coll. TOTEM hybrid 4 pixel diamond with final geometry for Vertical RP

16. Time Resolution (x plane) Time difference measured between Det1 (C = 2pF) and Det2 (C = 0.29pF)

17. 17 Detector Efficiency Efficiency measurement: metalization gap

18. CT-PPS timing TOTEM tracking CT-PPS tracking 2 CT-PPS tracking 1 CT-PPS: components installed during LS1 IP5 ► TCL 4 & TCL 6 in 4-5 and 5-6 Electrical patch panel Service lines for LV/HV/DAQ CT-PPS specific: 2 * RP box with RF shield in 4/5 2 * RP box with RF shield in 5/6 1 * RP cylinder in 4/5 1 * RP cylinder in 5/6

19. Update on CT-PPS Summary Roman Pots are installed & calibrated in the LHC tunnel at ip5 Collimators TCL4 and TCL6 are installed RP Si-strip detectors & electronics successfully tested Insertion of horizontal RPs at low β* under discussion with LHC coordination Quartic fabrication and integration in cylindrical Roman Pot under preparation Quartic electronics and firmware is under design 3D pixel sensors production is in preparation at CNM CT-PPS is joining Tracker production of DAQ boards (uTCA) Beam tests scheduled at Fermilab & CERN SPS Active R&D in several fronts Installation of new components in tunnel (FE electronics/clock/DAQ) needs to be specified and summarized in addendum to ECR upgrade [ from LHCC report by J.Varela ]

20. RadMon Setup (v.2) with DCS, RadMon and heat exchanger (in March 2015) CT-PPS Plans for 2015 G.Anchev

21. First LHC Collisions at 13 TeV (21 May 2015)